World Heritage Beer Garden Picnic

We are trying to get more juice from the sun by
making the sugar it helps produce go farther. The past month we did a
bunch of small experiments at Lijiang Studios, including
growing mushrooms and making beer from local materials.
Mushrooms are one way to extract more solar
energy from "waste" materials. These will contribute to
the creation of some luscious edible myceliated
structures to be installed in the Lashi Basin in
ecologically fragile locations. Here they will help to
staunch erosion and build and detoxify the soil where it
has been over-farmed, over-grazed or over-"permed" by
agricultural chemicals.

Plants capture and store solar energy in the form of
sugars and carbohydrates. Agriculture is a process that
attempts to increase the output of this captured and
converted solar energy. Unless nutrients equivalent or
greater to what has been taken out of the ground are
returned to the soil, however, most agricultural methods
lead to the degradation of the biosystems supported in
the land. Cultural practices of farmers can also
contribute to this degradation, especially when
traditional subsistence practices (the crops they grow
for themselves, and the resources they extract from the
land for daily needs) are impacted by forces that are
part of larger geographic spheres, regional, national
and global.

Yunnan is an important place for mushroom cultivation
and a lot of people also gather and dry wild mushrooms
to supplement their incomes. We are growing Pleurotus
ostreatus (Oyster), Flammulina velutipes (straw
mushroom) and Coprinus comatus (Shaggy Mane), all
mushrooms with low commercial value, but that have been
documented as useful for bioremediation under different
circumstances. The samples we are growing came from our
own foraging, and from other mushroom farmers.

Fungi are an amazing and unique life form. They eat
dead plant material and other waste. Mushrooms are a
great organism for extracting more solar energy(as
sugars and proteins) from otherwise indigestible (by
humans) farm and brewery waste. People are probably
familiar with their use as food and in medicines, but
might not be as aware of their ability to filter and
detoxify substances in the ground and water. There is
still lots of research to be done on how mushrooms can
break down dangerous substances in the environment, and
encourage new growth of complementary species. We
explore the basics here, and refer you to the mycologist
and author Paul Stamets for a deeper understanding.

The fungal body consists of material called mycelia,
while the mushroom that comes above ground is
the fruit. Some fungi never fruit into mushrooms, but
can get quite large underground. Every part of the
fungus contains identical genetic material. Mushrooms
do not need solar energy to grow, and the mushrooms we
are growing all feed specifically from
decomposing material. The mycelia of the mushroom body
are tiny little threads looped together like velcro.
They can move rhizomatically, branching off in any
direction they
need to in pursuit of food. The tiny mycelial threads
will grow as densely as available food
nutrition allows them; under good conditions, they are
packed so tightly together
that a gram of soil can have up to a mile
of mycelial cells. This mass of cells acts like an
extremely dense filter through which
liquids pass. Mycelia are also cool because they
excrete digestive enzymes- as if your stomach was
outside of your mouth, allowing you to digest food in
advance of eating it. This is very efficient- they
digest their food, and then take in exactly the
nutrients they need to grow, leaving their "waste"
already broken down into
simpler components. The mycelial web that is in all
healthy ground (the small white filaments you sometimes
can see in soil) helps small
trees and other plants get established, while also
breaking down many toxins in the soil and water.

To propagate mushrooms, small samples can be taken and
placed to grow in the dark in nutritive mediums.
Usually this is first
agar (seaweed) mixed with potato or another kind of
sugar or starch, and then grain, and finally straw. Once
our mycelia have propagated fully in straw bags, they
will be moved into large bamboo baskets, and placed in
the
landscape where is evidence of
erosion.

Since all parts of mushrooms carry the organism's
genetic material, it is possible to propagate new
mycelia off any parts of the mushroom. The problem is
that it is easy to contaminate the new mycelial growth-
all kinds of critters, bacteria, and other fungi will
try to eat at the nutrients intended for the mushrooms
we are growing. This makes a clean room necessary, and
also creates a need to boil all of our vessels and
materials.

Experiments with the sun to heat
water for sterilization and to heat the air in the incubation
hut.

Beer making is another way to maximize the solar
energy saved in plants. Beer is made from grains, which
can still be used to grow mushrooms after the beer
making process. The leftover malted grain can also be
used to feed animals such as pigs. This is the extra we get off
the 1% from the sun.
Beer making is an ancient art. Some anthropologists
believe the real beginning of agriculture came with beer
making, as farmers tried to find the best cultivars of
barley and wheat to use for fermentation.

Beer was part of the social life of humans -- or perhaps, a way to cope-- at the start of agriculture, and is still around, even as
agriculture reaches another turning point.

THE PICNIC OF THE FUTURE: A picnic is a time to drink
and feast and rest and reflect. We want to know, what will we
eat at the picnic of the future? Where will it come
from? It is possible to have a picnic that feeds and cares for
the forests and water and soil, and also the humans?
Our understanding of the forces impacting farmers in the
Lashi Basin is very imperfect, but we see that farmers
are losing ground as land is flooded for the expansion
of Lashi Lake.
Our experiments with increasing the use of energy from
the sun for agriculture rose from the question of what
farmers would do if they needed to farm on less space.
It also seems to us that the pressures of environmental
degradation and economic liberalization (and perhaps
individual desires
for new kinds of participation in the world, as per the
"New Countryside" speech
of Hu Jintao,) are influencing farmers to find
supplementary sources of income. Building trades are
expanding, as are jobs in tourist "hospitality," and
"eco-tourism" lines like pony-riding. Each month seems
to bring both new roads and on these roads, new drivers.
There is uncertainty as to what precisely the future
will bring, what people will do in the
future.

We also wonder what will happen on this land: the farm
plots irrigated by ditches and streams of fresh water
running from the mountains toward Lashi Lake, the nearby
mountains and their soil and their small trees clinging
to the hillsides. And also the not-so-distant glaciers,
slowly warming and discharging their water for good.

Since 1999, following the floods on the Yangtze River,
China made the decision to conserve
forests, but maybe their future is still insecure. There
are allowances for family use; will there be enough for
all families to share? And we can see new developments
carved into forested hillsides above Lijiang; new people
coming to the area. New policies in the making will
have unforeseen impacts on how forest cover make it in the future.

Farmers might have to find new ways to cope; will they find new ways to farm
that will expand the energy potential of the sun? And as the
natural resources of trees and water are claimed by different parties, can the farmers
help sustain them for healthy life into the future?
Growing mushrooms is one very safe way to add to the energy from the sun to make food for the people, while
providing for the forests and improving the quality of the water. Perhaps you know some others.